High-dimensional Poincaré beams generated through cascaded metasurfaces for high-security optical encryption

IF 15.7 Q1 OPTICS PhotoniX Pub Date : 2024-04-17 DOI:10.1186/s43074-024-00125-8
Jitao Ji, Chen Chen, Jiacheng Sun, Xin Ye, Zhizhang Wang, Jian Li, Junyi Wang, Wange Song, Chunyu Huang, Kai Qiu, Shining Zhu, Tao Li
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Abstract

Optical encryption plays an increasingly important role in the field of information security owing to its parallel processing capability and low power consumption. Employing the ultrathin metasurfaces in optical encryption has promoted the miniaturization and multifunctionality of encryption systems. Nevertheless, with the few number of degrees of freedom (DoFs) multiplexed by single metasurface, both key space and encoding space are limited. To address this issue, we propose a high-security and large-capacity optical encryption scheme based on perfect high-dimensional Poincaré beams with expanded DoFs. By cascading two arrayed metasurfaces, more beam properties can be independently engineered, which gives rise to the extensively expanded key and encoding spaces. Our work provides a promising strategy for optical encryption with high security level and large information capacity and might facilitate the applications of Poincaré beams in optical communications and quantum information.

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通过级联元曲面生成的高维 Poincaré 光束用于高安全性光学加密
光学加密因其并行处理能力和低功耗,在信息安全领域发挥着越来越重要的作用。在光加密中采用超薄元表面促进了加密系统的小型化和多功能化。然而,由于单个元表面复用的自由度(DoF)数量较少,密钥空间和编码空间都受到了限制。为了解决这个问题,我们提出了一种高安全性和大容量的光学加密方案,该方案基于具有扩展自由度的完美高维庞加莱光束。通过级联两个阵列元面,可以独立设计更多光束属性,从而广泛扩展密钥和编码空间。我们的工作为具有高安全等级和大信息容量的光学加密提供了一种前景广阔的策略,并可能促进波形光束在光通信和量子信息领域的应用。
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来源期刊
CiteScore
25.70
自引率
0.00%
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0
审稿时长
13 weeks
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